tails[0].nxt = odd_head
    return even_head


def get_input(case=0):
    def gen_even_odd_array(x):
        res = []
        for i in xrange(0, len(x), 2):
            res.append(x[i])
        for i in xrange(1, len(x), 2):
            res.append(x[i])
        return res

    src = range(case + 1)
    ans_src = gen_even_odd_array(src)
    head = gen_list(src)
    ans = gen_list(ans_src)
    return head, ans


def main():
    for case in xrange(7):
        print('--- case {} ---'.format(case))
        head, ans = get_input(case)
        print('Input:')
        print('head =', get_list_str(head))
        res = even_odd_merge(head)
        print('Output:')
        print('res =', get_list_str(res))
        print('ans =', get_list_str(ans))
        print('Test success' if is_equal(res, None, ans, None
Пример #2
0
        data_1 = node_1.data if node_1 else 0
        data_2 = node_2.data if node_2 else 0
        tmp = data_1 + data_2 + ca
        res_node.nxt = Node(tmp % 10, None)
        ca = tmp / 10
        if node_1: node_1 = node_1.nxt
        if node_2: node_2 = node_2.nxt
        res_node = res_node.nxt
    if ca > 0:
        res_node.nxt = Node(ca, None)
    return res_head.nxt


def get_input(case=0):
    if case == 0:
        head_1 = gen_list([3, 1, 4])
        head_2 = gen_list([7, 0, 9])
        ans = gen_list([0, 2, 3, 1])
        return head_1, head_2, ans
    elif case == 1:
        head_1 = gen_list([9, 4])
        head_2 = gen_list([7, 0, 9])
        ans = gen_list([6, 5, 9])
        return head_1, head_2, ans
    elif case == 2:
        head_2 = gen_list([9, 4])
        head_1 = gen_list([7, 0, 9])
        ans = gen_list([6, 5, 9])
        return head_1, head_2, ans
    elif case == 3:
        head_1 = gen_list([9, 9])
Пример #3
0
            return False
        first_half_iter = first_half_iter.nxt
        second_half_iter = second_half_iter.nxt
    """
  you can reverse 2nd half sublist back to original here,
  depends on the interviewr's opinion:
    second_half_head = reverse_list(second_half_head)
  """
    return True


def get_input(case=0):
    if case == 0:
        return None, True
    elif case == 1:
        return gen_list([1]), True
    elif case == 2:
        return gen_list([1, 1]), True
    elif case == 3:
        return gen_list([1, 2]), False
    elif case == 4:
        return gen_list([7, 3, 1, 5, 1, 3, 7]), True
    elif case == 5:
        return gen_list([7, 3, 1, 5, 2, 3, 7]), False


def main():
    print('Use is_palindromic =====')
    for case in xrange(6):
        print('--- case {} ---'.format(case))
        head, ans = get_input(case)
Пример #4
0
    dummy_head = Node(0, head)
    end = dummy_head.nxt
    while k > 0:
        end = end.nxt
        k -= 1
    start = dummy_head
    while end:
        start = start.nxt
        end = end.nxt
    start.nxt = start.nxt.nxt
    return dummy_head.nxt


def get_input(case=0):
    if case == 0:
        head = gen_list([1])
        k = 1
        ans = None
        len_ans = 0
        return head, k, ans, len_ans
    elif case == 1:
        head = gen_list([1, 2])
        k = 1
        ans = gen_list([1])
        len_ans = 1
        return head, k, ans, len_ans
    elif case == 2:
        head = gen_list([1, 2, 3])
        k = 1
        ans = gen_list([1, 2])
        len_ans = 2
            equal_iter = equal_iter.nxt
        elif node.data > k:
            greater_iter.nxt = node
            greater_iter = greater_iter.nxt
        node = node.nxt
    if not equal_head.nxt:
        return head  # the pivot does not exist, just return the original head
    less_iter.nxt = equal_head.nxt
    equal_iter.nxt = greater_head.nxt
    greater_iter.nxt = None
    return less_head.nxt


def get_input(case=0):
    if case == 0:
        head = gen_list([3, 2, 2, 11, 7, 5, 11])
        ans = gen_list([3, 2, 2, 5, 7, 11, 11])
        k = 7
        return head, k, ans
    elif case == 1:
        src = [3, 2, 2, 11, 7, 5, 11]
        head = gen_list(src)
        ans = gen_list(src)
        k = 100
        return head, k, ans
    elif case == 2:
        head = gen_list([3, 2, 19, 2, 11, 7, 8, 5, 11, 4, 7])
        ans = gen_list([3, 2, 2, 5, 4, 7, 7, 19, 11, 8, 11])
        k = 7
        return head, k, ans
    elif case == 3:
Пример #6
0

def delete_a_node_which_is_not_a_tail(node):
    """
    This problem assumes the node to delete is not a tail.
    The time complexity is O(1).
    The additional complexity complexity is O(1).
  """
    node.data = node.nxt.data
    node.nxt = node.nxt.nxt


def get_input(case=0):
    src = [1, 2, 3]
    if case == 0:
        head = gen_list(src)
        node = head
        ans = gen_list([2, 3])
        return head, node, ans
    elif case == 1:
        head = gen_list(src)
        node = head.nxt
        ans = gen_list([1, 3])
        return head, node, ans


def main():
    for case in xrange(2):
        head, node, ans = get_input(case)
        print('--- case {} ---'.format(case))
        print('Input:')